I'm optimising the following code with AVX and want to know your opinion about the best approach.

There are two blocks of data
`uint8 x[3][3];`

`uint8 y[3][3];`

result is `uint8`

value which is sum of multiplication of corresponding elements like

```
res = (x[0][0]*y[0][0] + x[0][1]*y[0][1] + ... + x[3][3]*y[3][3]) >> NN
```

my concerns are:

the result of

`x[0][0]*y[0][0]`

is`uint16`

, so before any multiplications I need to unpack`uint8`

into`uint16`

which is extra instructions.the sum is

`uint32`

value, so before the merging multiplication results I need to unpack`uint16`

into`uint32`

. It's also overhead.

Is the any simpler/faster way to do the same math without extra unpack instructions?

Is there a way to multiply bytes and get `uint32`

or `uint16`

result w/o extra data conversions?

Thanks.

PS: x[3][3] and y[3][3] are both in a range [0...255]

`(v)PUNPCKLBW`

, the second by`(V)PMADDWD`

+ horizontal add. If you didn't have the requirement of`uint16_t`

-intermediaries, you might ba able to instead use`(V)PMADDUBSW`

for the first step, but the second step would be more complicated. – EOF May 10 '16 at 14:48`pmaddubsw`

. Otherwise not. I forget if AVX-512 has something. Welcome to the joys of SSE/AVX's highly non-orthogonal choice of instructions. I often happens that the perfect operation is available, but not for the element size or signedness you need. You're probably going to need a`punpck`

or`pmovzx`

. – Peter Cordes May 11 '16 at 5:03